Abnormal Event Driven Rescheduling Decision Making in Discrete Manufacturing Workshop

doi:10.16182/j.issn1004731x.joss.201811002

Abstract

Abstract: To solve the problem of rescheduling of workshop production process, combined with the present situation of transparent manufacturing process in discrete workshop, a decision method of rescheduling and an event processing in discrete workshop driven by the abnormal events are proposed. In the IOT driven discrete manufacturing workshop environment, the complex event processing technology is applied to analyze and deal with the real-time information on manufacturing processes. On this basis, by defining the driven mechanism, the decision scheme and the performance evaluation index of rescheduling, the decision method of rescheduling in discrete workshop facing the costing is put forward; and with the help of simulated annealing and genetic algorithm, the optimal scheduling scheme is figured out. The effectiveness of the rescheduling decision method is verified by the case study of the abnormal events in the discrete workshop, which is obtained after the event processing.

Key words: simulated annealing and genetic algorithm, complex event processing, event-driven mechanism, rescheduling decision

CLC Number:

TP391
TH186

Ji Weixi, Cai Youyong, Zhang Chaoyang, Peng Wei. Abnormal Event Driven Rescheduling Decision Making in Discrete Manufacturing Workshop[J]. Journal of System Simulation, 2018, 30(11): 4043-4052.

References

[1] SALIDO M A, ESCAMILLA J, BARBER F, et al.Rescheduling in job-shop problems for sustainable manufacturing systems[J]. Journal of Cleaner Production(S0959-6526), 2016, 162.
[2] ZAKARIA Z, PETROVIC S.Genetic algorithms for match-up rescheduling of the flexible manufacturing systems[J]. Computers & Industrial Engineering (S0360-8352), 2012, 62(2): 670-686.
[3] 张玺, 刘明周, 张铭鑫, 等. 基于改进模糊Petri网的制造车间重调度策略优化研究[J]. 管理工程学报, 2017, 31(2): 216-221.
ZHANG Xi, LIU Mingzhou, ZHANG Mingxin, et al.Research on Rescheduling Strategy Optimization in Manufacturing Shop based on Improved Fuzzy Petri Net[J]. Journal of Industrial Engineering and Engineering Management, 2017, 31(2): 216-221.
[4] 段俊华, 孙卫青, 李俊青, 等. 一种基于迁徙鸟群优化的流水车间重调度方法[J]. 控制工程, 2017, 24(8): 1656-1661.
DUAN Junhua, SUN Weiqing, LI Junqing, et al.A Flow Shop Rescheduling Algorithm Based on Migrating Birds Optimization[J]. Control Engineering of China, 2017, 24(8): 1656-1661.
[5] 陈超, 王艳, 严大虎, 等. 面向能耗的柔性作业车间动态调度研究[J]. 系统仿真学报, 2017, 29(9): 2168-2174.
Chen Chao, Wang Yan, Yan Dahu, et al.Research on Dynamic Flexible Job Shop Scheduling Problem for Energy Consumption[J]. Journal of System Simulation, 2017, 29(9): 2168-2174.
[6] 裴海燕, 蒋祖华, 胡家文, 等. 插单扰动下流水线生产与维护的重调度优化[J]. 工业工程与管理, 2017, 22(1): 50-57.
PEI Haiyan, JIANG Zuhua, HU Jiawen, et al.Integrating Rescheduling with Preventive Maintenance in the Flow-shop Problem under Rush Orders[J]. Industrial Engineering and Management, 2017, 22(1): 50-57.
[7] 刘乐, 周泓. 单一机器干扰下的开放式车间重调度[J]. 计算机集成制造系统, 2013, 19(10): 2467-2480.
LIU Le, ZHOU Hong.Open shop rescheduling under singular machine disruption[J]. Computer Integrated Manufacturing Systems, 2013, 19(10): 2467-2480.
[8] ZHANG Y, HUANG G Q, SUN S, et al.Multi-agent based real-time production scheduling method for radio frequency identification enabled ubiquitous shopfloor environment[J]. Computers & Industrial Engineering, 2014, 76(C): 89-97.
[9] TAO F, QI Q, LIU A, et al.Data-driven smart manufacturing[J]. Journal of Manufacturing Systems (S0278-6125), 2018, 48: 157-169.
[10] 张存吉, 姚锡凡, 张剑铭. 制造车间基于RFID与CEP的工件实时监测[J]. 湖南大学学报(自然科学版), 2017, 44(4): 38-45.
ZHANG Cunji, YAO Xifan, ZHANG Jianming.Real-time Monitoring of Workpieces Based RFID and CEP for Manufacturing Workshop[J]. Journal of Hunan University (Natural Sciences), 2017, 44(4): 38-45.
[11] 黃毅, 郑力, 向晴. 基于复杂事件处理的RFID辅助实时生产监控[J]. 清华大学学报(自然科学版), 2013, 53(5): 721-728.
HUANG Yi, ZHENG Li, XIANG Qing.RFID integrated real-time manufacturing monitoring based on complex event processing[J]. Journal of Tsinghua University (Science and Technology), 2013, 53(5): 721-728.
[12] ZHONG R Y, HUANG G Q, LAN S, et al.A two-level advanced production planning and scheduling model for RFID-enabled ubiquitous manufacturing[J]. Advanced Engineering Informatics(S1474-0346), 2015, 29(4): 799-812.
[13] 李想, 王建仑, 高红菊. 面向农田物联网复杂事件处理的时空事件模型[J]. 农业机械学报, 2015, 46(增1): 153-161.
LI Xiang, WANG Jianlun, GAO Hongju.Time and Space Event Model for Complex Event Processing in Internet of Things in Farmland[J], Transactions of the Chinese Society for Agricultural Machinery, 2015, 46(S1): 153-161.

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